Rare earth ion doped down-conversion luminescent transparent glass-ceramics

A technology of rare earth ions and glass-ceramics, applied in the field of transparent glass-ceramics, can solve the problems of loss of sunlight energy, absorption and conversion of sunlight energy, utilization of silicon solar cells, etc., achieve excellent processing characteristics and chemical stability, and be widely used Effect of foreground, low phonon energy

Inactive Publication Date: 2009-01-28
ZHEJIANG UNIV
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  • Application Information

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Problems solved by technology

For a long time, people have been committed to improving the material processing technology to increase the photoelectric conversion efficiency of silicon cells. Through this method, the highest photoelectric conversion rate of silicon cells has reached 24.7%, but it is difficult to further improve the material processing technology alone. Improve its energy conversion efficiency
[0003] Since silicon semiconductor has a fixed band gap (1.12eV), it is impossible to completely absorb and convert natural sunlight energy. Only sunlight with a wavelength of less than 1100nm can achieve photoelectric conversion in silicon

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0015] Doping rare earth ions in the fluorosilicate glass matrix, the doped rare earth ions are Tb 3+ and Yb 3+ , the molar concentrations are 0.5% and 5%, respectively, and the fluoride crystallites precipitated after heat treatment are CaF with an average size of 10nm 2 , CaF 2 The volume percentage in the glass matrix is ​​30%. The down-conversion luminescent transparent glass-ceramic is polished on both sides and irradiated with a 480-490nm Xe lamp to detect the 3+ The emission at 980nm and 1016nm has a quantum efficiency of more than 160%.

Embodiment 2

[0017] Doping rare earth ions in the fluoroborate glass matrix, the doped rare earth ions are Tb 3+ and Yb 3+ , the molar concentrations are 0.5% and 25%, respectively, and the fluoride crystallites precipitated after heat treatment are BaF with an average size of 16nm 2 , BaF 2 The volume percentage in the glass matrix is ​​40%. The down-conversion luminescent transparent glass-ceramic is polished on both sides and irradiated with a 480-490nm Xe lamp to detect the 3+ The emission at 980nm and 1016nm, its quantum efficiency exceeds 162%

Embodiment 3

[0019] Fluoroborosilicate glass matrix is ​​doped with rare earth ions, and the doped rare earth ions are Tb 3+ and Yb 3+ , the molar concentrations are 1% and 39%, respectively, and the fluoride crystallites precipitated after heat treatment are LaF with an average size of 16nm 3 , LaF 3 The volume percentage in the glass matrix is ​​40%. The down-conversion luminescent transparent glass-ceramic is polished on both sides and irradiated with a 480-490nm Xe lamp to detect the 3+ Emissions at 980nm and 1016nm with quantum efficiencies over 170%

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Abstract

The invention discloses a rare earth ion doped down-conversion luminescence transparent microcrystalline glass, which is obtained by doping rare earth ion in an oxyfluoride microcrystalline glass substrate with the molar concentration of the rare earth ion to be 1-40% and the volume percent of the fluoride microcrystal in the glass matrix to be 1-50%. The down-conversion luminescence transparent microcrystalline glass of the invention has the advantages of low phonon energy of the fluoride, excellent machining characteristic and chemical stability of the oxide glass and quantum efficiency which is more than one; the glass slowly ages under the condition of outdoor long-term illumination and can also be machined into transparent plate shape or even ultrathin plate shape, therefore, the glass is one of the best selections which can be used in solar cells, and has wide application prospect.

Description

technical field [0001] The invention relates to a transparent glass-ceramic, in particular to a transparent glass-ceramic capable of down-converting luminescence through rare earth ion doping. Background technique [0002] In the 21st century, mankind will face the major challenge of achieving sustainable social and economic development. In the face of the current depletion of fossil fuels and the negative issues such as the greenhouse effect, acid rain and agricultural production reduction induced by massive consumption, there is an urgent need to develop And use new energy and green renewable energy. The energy emitted by the sun per second is about 1.6×10 23 kilowatts, of which up to 8 x 10 13 Kilowatts, the total amount of solar energy reaching the earth's surface in one year is about 1.892×10 standard coal 13 100 billion tons, which is 10,000 times the proven reserves of major energy sources in the world. In view of this, solar energy will surely play an important r...

Claims

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Application Information

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IPC IPC(8): C03C10/16C03C4/12
Inventor 叶松邱建荣朱斌陈景鑫罗进
Owner ZHEJIANG UNIV
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